Yarn consisting of drawn sintered PTF fibers and woven, non-woven and knitted fabrics; filter bags; ropes; and fire-protective clothing formed therefrom

ABSTRACT

A process for forming polytetrafluoroethylene yarn by 
     (1) forming an oriented polytetrafluoroethylene film by drawing a sintered sheet from about 5 to 30 times its original length at an elevated temperature; and 
     (2) passing the oriented film through fibrillating means such as a high turbulent air velocity jet to form a yarn of entangled irregular shaped non-uniform staple fibrils. 
     The yarn and woven, non-woven and knitted fabrics prepared from this yarn also are part of the invention.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a divisional application of copending applicationSer. No. 615,723 filed Sept. 22, 1975 now U.S. Pat. No. 4,064,214 issuedDec. 20, 1977.

BACKGROUND OF THE INVENTION

This invention is related to a process for making yarn, and inparticular, to a process for making polytetrafluoroethylene yarn.

Fibers of polytetrafluoroethylene have been produced by slitting apolytetrafluoroethylene film into thin structures and then expanding andorienting these structures as shown in Gore U.S. Pat. No. 3,664,915,issued May 23, 1972. Also, continuous fibers of polytetrafluoroethylenehave been prepared by blending viscose with a polytetrafluoroethylenedispersion and then extruding a filament and heating the filament tosinter the polytetrafluoroethylene and remove the viscose but thisprovides a dark brown fiber. To bleach the fiber, the fiber subsequentlyis passed through a nitric acid bath.

Neither of these processes form a polytetrafluoroethylene fiber whichwhen made into a fabric will form high quality filters such as thoseused in electric power plants to remove ash from hot flue gas fromboilers or those utilized by the chemical industry to filter hotcorrosive liquids and gases.

SUMMARY OF THE INVENTION

The process for forming a polytetrafluoroethylene yarn comprises

(1) forming an oriented polytetrafluoroethylene film by drawing asintered polytetrafluoroethylene sheet at a temperature of 340°-400° C.from about 5 to 30 times its original length; and

(2) passing the oriented film through a fibrillating means therebyforming a yarn of entangled irregularly shaped non-uniform staplefibrils.

A yarn of entangled irregular shaped stable fibrils of orientedpolytetrafluoroethylene also is part of this invention as are fabricssuch as woven fabrics, non-woven fabrics and knitted fabrics preparedfrom this yarn.

DESCRIPTION OF THE INVENTION

The polytetrafluoroethylene yarn of this invention when formed into afabric makes a high quality and efficient filter that can be used, forexample, to remove up to 99% of the particles in high temperature fluegases from furnaces and boilers and to filter hot corrosive chemicalliquids and gases. The process of this invention for preparing theseyarns is economical and efficient and provides a high quality yarn.

The polytetrafluoroethylene used in the process can be extruded from abillet onto heated drawing rolls that sinter and orient the film. Thepolytetrafluoroethylene billet can be prepared by blending powderedpolytetrafluoroethylene with about 15-25% of a hydrocarbon lubricantsuch as naphtha to form a paste. This paste is compressed into a billetand the billet is placed in a piston type extruder which extrudes a filmin continuous ribbon or bead onto calender rolls that form a film about2-10 mils thick and from about 0.5-3 inches in width. The film is thenpassed into a drying oven to remove any residual lubricant. The film isslit to its desired width.

Optionally, a polytetrafluoroethylene film can be used as the startingmaterial and slit into a film of the desired width. Also, the film andthe billet can be pigmented with various heat stable pigments to providea colored yarn.

The polytetrafluoroethylene film must be sintered. This can be doneimmediately after the film is slit, or before the film is slit, bypassing the film over a separate set of heated rolls. To sinter thepolytetrafluoroethylene, the film is heated to about 340°-400° C.Sintering of the film also may be done just before the film is drawn andoriented. This can be accomplished by passing the film over heated rollsor a heated plate. Optionally, a sintered polytetrafluoroethylene filmcan be used as the starting material.

Once the film has been sintered, it is drawn and oriented to about 5 to30 times its original length. For most uses, the film is drawn about10-20 times. Drawing and orienting of the film is accomplished byconventional techniques. The film is passed over heated drawing rolls ora heated plate and the film is heated to about 340°-400° C. Generally,the film is heated to about 350°-370° C. The procedure used to draw thefilm is to pass the film around wind-up rolls that travel at a speedgreater than the rolls which are unwinding the film. The speed ratio ofthe unwind and wind-up rolls can be adjusted to give the above draw.This is a conventional technique well known to those skilled in the art.

The resulting drawn and oriented polytetrafluoroethylene film has atensile strength of about 50,000 to 100,000 pounds per square inch.

The drawn and oriented film is passed into a fibrillating means andformed into a yarn. The yarn is of entangled irregularly shapednon-uniform staple fibrils of polytetrafluoroethylene and is of about100-2000 denier and has a tenacity of at least 1.0 grams per denier.Generally, the yarn has a denier of about 400-1000 and a tenacity of2.0-6.0 grams per denier.

The fibrillation means used to prepare the yarn can be thoseconventionally used in the art. One preferred apparatus which gives ahigh quality yarn is a jet through which a high velocity turbulent fluidis impinged upon the film which causes the film to fibrillate and a yarnas described above is formed. Generally, air is used as the fluid,however, other gases or liquids also could be used.

The yarn can be twisted to improve strength and resilience. Generally,about 1 to 5 twists per inch can be used.

The yarn can be processed into fabrics using conventional equipment andtechniques. For example, the yarn can be woven, knitted or non-woven toform a fabric. Typical woven cloths such as twills, drills and ducks canbe prepared. Non-woven felts can be formed using conventional mechanicalor hydraulic needling. Carded, cross-lapped and needled felts also canbe prepared. In general, these fabrics have a good drape, excellentflexibility, a good hand, are dimensionally stable and are easily sewn.These fabrics can be treated, coated or impregnated using conventionaltechniques to impart additional properties to the fabrics, for example,to improve adhesion of the fabric.

In addition to the use as filters, fabrics of the yarn can be used forfire-proof or protective clothing, pump and valve packing, gasket tape,bearings, conveyor belts, wicking felts, release fabrics, leader tapesand in fuel cells. The yarn can be processed into ropes, sewing threads,electrical lacing cords and the like.

The following Example illustrates the invention. All parts andpercentages are by weight unless indicated otherwise.

EXAMPLE

A roll of electrical grade polytetrafluoroethylene tape (made by pasteextrudation and is subsequently sintered) 1/4 inch wide ×3 mils inthickness is wrapped seven times around a pair of 8 inch diameter feedrolls heated to 220° C. From the feed rolls, the tape then is passedover an electrically heated metal plate about 22 inches in length andheated to about 361° C., and then the tape is wrapped 5 times around apair of drawing rolls to give a draw of about 17.9 times. A ribbonresults having a 547 denier. The ribbon is passed into a fibrillatorwhich is a bulk continuous fiber bulking jet which utilizes 50 poundsper square inch pressure. A yarn is formed that has a tenacity of 2.0grams/denier and an elongation at break of about 7.6%.

A woven fabric is prepared from the yarn using a conventional loom. Thefabric is a 3×1 twill having 59 ends per inch and 50 picks per inch, aweight of 8.4 ounces/square yard and Frazier air permeability of 24cubic feet per minute per square foot of cloth using a 1/2 inch waterpressure differential across the cloth.

A tubular knit fabric is prepared from the yarn using a Knit de Knitmachine. A high quality knit fabric is formed.

A felt is prepared from the yarn. The yarn is cut into 2 inch staple andis carded, cross-lapped and mechanically needled to form a strong feltfabric.

The invention claimed is:
 1. A yarn of entangled irregularly shapednon-uniform staple fibrils consisting of sintered orientedpolytetrafluoroethylene and having a denier of 100-2000 and a tenacityof at least 1.0 grams per denier and in which the fibrils have beendrawn to 5 to 30 times their original length.
 2. The yarn of claim 1having 1 to 5 twists per inch.
 3. A knitted fabric prepared from theyarn of claim
 1. 4. A rope prepared from the yarn of claim
 1. 5. A wovenfabric prepared from the yarn of claim
 1. 6. A filter bag of the wovenfabric of claim
 5. 7. Fire protective clothing prepared from the fabricof claim
 5. 8. A non-woven fabric prepared from the yarn of claim
 1. 9.The non-woven fabric of claim 8 which is prepared by mechanical needlingor by hydraulic needling.
 10. The non-woven fabric of claim 8 which isprepared by carding, cross-lapping and mechanically needling a batt ofyarn.